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Name Class CHAPTER 9 Date Volcanoes SECTION 3 Causes of Volcanic Eruptions National Science Education Standards BEFORE YOU READ After you read this section, you should be able to answer these questions: ES 1b, 1c • How does magma form? • Where do volcanoes form? • How can geologists predict volcanic eruptions? How Does Magma Form? Magma forms deep in the Earth’s crust and in the upper parts of the mantle. In these areas, the temperature and pressure are very high. Changes in pressure and temperature can cause magma to form. Part of the upper mantle is made of very hot, solid rock. The rock is so hot that it can flow, like soft chewing gum, even though it is solid. If rock of this temperature were found at the Earth’s surface, it would be molten, or melted. The rock in the mantle does not melt because it is under high pressure. This pressure is produced by the weight of the rock above the mantle. In the figure below, the curved line shows the melting point of a rock. The melting point is the temperature at which the rock melts for a certain pressure. 4EMPERATURE (IGH The curved line shows the melting point of the rock. Rock with the temperature and pressure of point A is liquid. Rock at the same temperature but higher pressure (B) is solid. Rock at the same pressure but lower temperature (C) is also solid. ,IQUID ! " -ELTINGPOINT # 3OLID ,OW ,OW 0RESSURE STUDY TIP Describe After you read this section, make flowcharts showing how magma forms at divergent boundaries and at convergent boundaries. READING CHECK 1. Explain Why doesn’t the hot rock in the mantle melt? Math Focus 2. Describe A rock starts out at point C. Then, its temperature increases. What will happen to the rock if its temperature continues to rise? (IGH MAGMA FORMATION IN THE MANTLE The temperature of the mantle is fairly constant. Magma usually forms because of a decrease in pressure. Therefore, a lot of magma forms at the boundary between separating tectonic plates, where pressure decreases. Magma is less dense than the solid rock it forms from. Therefore, it rises toward the surface and erupts. Copyright © by Holt, Rinehart and Winston. All rights reserved. Interactive Textbook 161 Volcanoes Name SECTION 3 Class Date Causes of Volcanic Eruptions continued Where Do Volcanoes Form? STANDARDS CHECK ES 1b Lithospheric plates on the scales of continents and oceans constantly move at rates of centimeters per year in response to movements in the mantle. Major geological events, such as earthquakes, volcanic eruptions, and mountain building result from these plate motions. The locations of volcanoes give clues about how volcanoes form. The figure below shows the locations of some of the world’s major active volcanoes. The map also shows the boundaries between tectonic plates. Most volcanoes are found at tectonic plate boundaries. For example, there are many volcanoes on the plate boundaries surrounding the Pacific Ocean. Therefore, the area is sometimes called the Ring of Fire. Remember that tectonic plate boundaries are areas where plates collide, separate, or slide past one another. Most volcanoes are found where plates move together or apart. About 15% of active volcanoes on land form where plates separate, and about 80% form where plates collide. The remaining few volcanoes on land are found far from tectonic plate boundaries. Volcanoes and Tectonic Plate Boundaries Word Help: response an action brought on by another action; a reaction Word Help: major of great importance or large scale 3. Describe Where are most volcanoes found? 0LATEBOUNDARY !CTIVEVOLCANO WHERE PLATES MOVE APART READING CHECK 4. Identify What causes magma to melt at divergent boundaries? At a divergent boundary, tectonic plates move away from each other. A set of deep cracks called a rift zone forms between the plates. Mantle rock moves upward to fill in the gap. When the mantle rock gets close to the surface, the pressure decreases. The decrease in pressure causes the mantle rock to melt, forming magma. The magma rises through the rift zones and erupts. Most divergent boundaries are on the ocean floor. Lava that flows from undersea rift zones produces volcanoes and mountain chains. These volcanoes and mountain chains are called mid-ocean ridges. The mid-ocean ridges circle the ocean floor. Copyright © by Holt, Rinehart and Winston. All rights reserved. Interactive Textbook 162 Volcanoes Name SECTION 3 Class Date Causes of Volcanic Eruptions continued How Magma Forms at a Divergent Boundary !TADIVERGENTBOUNDARYPLATES MOVEAPART7HENTHEPLATES MOVEAPARTTHEPRESSUREONTHE MANTLEBELOWTHEMDECREASES -IDOCEANRIDGE /CEANCRUST -ANTLE !STHEPRESSUREDECREASESMANTLE ROCKSTARTSTOMELT4HEMAGMA RISESTOWARDTHESURFACE 7HENTHEMAGMAREACHESTHE SURFACEITERUPTSONTOTHESEA FLOOR7HENITCOOLSANDHARDENS NEWOCEANCRUSTFORMS TAKE A LOOK 5. Explain How does new ocean crust form? WHERE PLATES MOVE TOGETHER At a convergent boundary, the tectonic plates collide. When an oceanic plate collides with a continental plate, the oceanic plate slides under the continental plate. This is called subduction. The oceanic crust sinks into the mantle because it is more dense than the continental crust. As the ocean crust sinks, the temperature and pressure on it increase. Because the ocean crust forms below the ocean, the rock contains a lot of water. The heat and pressure on the ocean crust cause this water to be released. The water mixes with the mantle rock above the oceanic plate. When the mantle rock mixes with water, it can melt at a lower temperature. The mantle rock begins to melt at the subduction zone. The magma rises to the surface and erupts as a volcano. READING CHECK 6. Explain Why does oceanic crust sink below continental crust? Copyright © by Holt, Rinehart and Winston. All rights reserved. Interactive Textbook 163 Volcanoes Name SECTION 3 Class Date Causes of Volcanic Eruptions continued How Magma Forms at a Convergent Boundary #ONTINENTALCRUST /CEANICCRUST -ANTLE 4HEWATERMIXESWITHTHEROCKIN THEMANTLE4HEROCKSMELTING POINTGOESDOWN4HEMANTLE ROCKMELTSTOFORMMAGMAWHICH RISESTOWARDTHESURFACE !STHEOCEANCRUSTSINKSTHE TEMPERATUREANDPRESSUREONIT INCREASE4HECRUSTRELEASESWATER INTOTHEMANTLEABOVEIT 4HEMAGMAERUPTSONTHE SURFACE4HISFORMSACHAINOF VOLCANOESALONGTHEEDGEOFTHE CONTINENTALPLATE TAKE A LOOK 7. Explain How does subduction produce magma? IN THE MIDDLE OF PLATES READING CHECK 8. Define What is a hot spot? Although most volcanoes form at plate boundaries, not all volcanoes form there. Some volcanoes, such as the Hawaiian Islands, form at hot spots. Hot spots are places on the Earth’s surface where volcanoes form far from plate boundaries. Most scientists think that hot spots form above hot columns of mantle rock called mantle plumes. Some scientists think that hot spots form where magma rises through cracks in the Earth’s crust. Long chains of volcanoes are common at hot spots. One theory to explain this is that a mantle plume stays in one place while the plate moves over it. Another theory states that hot-spot volcanoes occur in long chains because they form along cracks in the Earth’s crust. Scientists are not sure which of these theories is correct. It is possible that some hot spots form over plumes, but others form over cracks. Copyright © by Holt, Rinehart and Winston. All rights reserved. Interactive Textbook 164 Volcanoes Name SECTION 3 Class Date Causes of Volcanic Eruptions continued How Can We Predict Volcanic Eruptions? Scientists cannot always predict when and where a volcano will erupt. However, by studying ancient and modern volcanoes, scientists have been able to identify some signs that an eruption may happen. One feature that scientists use to predict whether an eruption will happen is the state of the volcano. Geologists put volcanoes into three groups based on how active they are. • Extinct volcanoes have not erupted in recorded history and probably will not erupt again. • Dormant volcanoes are currently not erupting, but they may erupt again. • Active volcanoes are currently erupting or show signs of erupting in the near future. Critical Thinking 9. Compare What is the difference between dormant volcanoes and extinct volcanoes? SMALL QUAKES AND VOLCANIC GASES Most active volcanoes produce small earthquakes as the magma within them moves upward. This happens because the magma pushes on the rocks as it rises. In many cases, the number and strength of these earthquakes increases before a volcanic eruption. Therefore, monitoring earthquakes is one of the best ways to predict an eruption. Scientists also study the volume and composition of gases given off by the volcano. Just before an eruption, many volcanoes give off more gas. The composition of the gas may also change before an eruption. By monitoring the gases, scientists can predict when an eruption may happen. Critical Thinking 10. Infer Why may a volcano that is about to erupt give off more gas? (Hint: Why are some eruptions explosive?) MEASURING SLOPE AND TEMPERATURE As magma rises before an eruption, it can cause the Earth’s surface to swell. The side of a volcano may even bulge. Scientists can use an instrument called a tiltmeter to measure the slope of the volcano’s sides. Changes in the slope can indicate that an eruption is likely. One of the newest methods for predicting volcanic eruptions involves using satellite images. Satellites can record the surface temperatures at and around volcanoes. As magma rises, the surface temperature of the volcano may increase. Therefore, an increase in surface temperature can indicate that an eruption is likely. READING CHECK 11. Explain Why may the Earth’s surface swell before an eruption? Copyright © by Holt, Rinehart and Winston. All rights reserved. Interactive Textbook 165 Volcanoes Name Class Date Section 3 Review NSES ES 1b, 1c SECTION VOCABULARY hot spot a volcanically active area of Earth’s surface, commonly far from a tectonic plate boundary rift zone an area of deep cracks that forms between two tectonic plates that are pulling away from each other 1. Identify Where do rift zones form? 2. Apply Concepts The map below shows the locations of many volcanoes. On the map, circle three volcanoes that are probably found at hot spots. 0LATEBOUNDARY !CTIVEVOLCANO 3. Identify What is the most common cause of magma formation in the mantle? 4. Describe How does magma form at divergent boundaries? 5. List Give four signs that a volcanic eruption is likely. Copyright © by Holt, Rinehart and Winston. All rights reserved. Interactive Textbook 166 Volcanoes Earth Science Answer Key continued Chapter 10 Weathering and Soil Formation 2. A large volume of gases and ash may be 3. 4. 5. 6. 7. released during a volcanic eruption. These gases and ash can prevent sunlight from reaching the Earth. This can cause global temperatures to decrease. cinder cones, composite volcanoes, shield volcanoes. The lava that forms them is thin and runny and spreads out over a large area. The material in them is loose and not cemented together. lava plateaus No, because it is thin and runny. Silica and water tend to produce thick, stiff lava and explosive eruptions. SECTION 1 WEATHERING 1. breaking down rock by physical means 2. No, because it is the expansion of ice that 3. 4. 5. 6. SECTION 3 CAUSES OF VOLCANIC ERUPTIONS 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 7. 8. It is under high pressure. It will melt. at tectonic plate boundaries a decrease in pressure Magma erupts from the mantle at divergent boundaries and hardens. Oceanic crust is more dense. Water released from the subducting plate mixes with the mantle and causes it to melt. a place where volcanoes form far from plate boundaries Dormant volcanoes may erupt again, but extinct volcanoes probably won’t. Gas dissolved in the magma may bubble out and be emitted at the volcano. Rising magma pushes it up. 9. 10. Review 1. at divergent plate boundaries 2. Three points that are far from plate bound- aries should be circled. 3. a decrease in pressure 4. As plates move apart, the pressure on the causes ice wedging. Running water moves rocks around. As the rocks are moved by the water, they bump into one another. This bumping causes abrasion. Their tunneling breaks rocks into small pieces. It also exposes more surfaces to weathering. water, air, and acid The minerals in granite dissolve very slowly in water. It takes a long time for enough minerals to dissolve for the rock to break down. active volcanoes and burning fossil fuel the presence of acidic groundwater and rock that can be dissolved Acids weaken the rock and make it crack. The rock in weakened areas is more likely to be removed by mechanical weathering. Factor How does it cause chemical weathering? Water Water can dissolve mineral grains in rock and cause the rock to break down. Acid precipitation Acids are more reactive than plain water. Acids in precipitation can quickly dissolve rocks. Acids in groundwater Acids in groundwater can dissolve rock and carve huge caves underground. Acids from living things Living things leave acids behind when they touch rock. The acids can weaken the rock and cause it to crack. Air Oxygen in the air can react with metals and other compounds to form new compounds. This can weaken rock. Review 1. water, wind, and gravity 2. (clockwise from the top) mantle below them decreases. This causes the hot rock in the mantle to melt and form magma. 5. increase in earthquakes, change in emitted gases, ground swelling, increase in surface temperatures Water seeps into cracks in the rock. Water freezes. Ice pushes on the cracks. The cracks expand. The ice melts. 3. Acids can break the bonds between minerals in rocks. They can also dissolve rocks. Copyright © by Holt, Rinehart and Winston. All rights reserved. Interactive Textbook Answer Key 45 Earth Science